Vitalii Lebid
Winning proposal- Projects 32
- Rating -
- Rating 460
Budget: 200 UAH Deadline: 1 day
Ready to work!
Budget: 1000 UAH Deadline: 7 days
Know with AutoCAD, in education engineer.Ready to try to perform the order...
Budget: 1000 UAH Deadline: 3 days
Experience is great. He was engaged in both attractions and courtyard trainers.
Budget: 200 UAH Deadline: 7 days
Ready to cooperate. Working in Solidworks
- Projects -
- Rating -
- Rating 41
Budget: 500 UAH Deadline: 5 days
Ready
to develop and publish collective drawings and schemes of any complexity
in the following systems: Autodesk Inventor, AutoCAD, Compass 3D (CD), SolidWorks, CATIA V5
Education – NAU HAI
Experience in work - 6 years (rocket and space complexes)
Payment and time depending on the amount of work
Budget: 200 UAH Deadline: 1 day
Ready to cooperate. Experienced users of AutoCAD and SolidWorks. I can provide the projects I have previously developed.
Budget: 2500 UAH Deadline: 15 days
The price and deadlines are under the specific TZ.
Under update 1 - after some clarifications - 3D model + set of work drawings for manufacture.
Budget: 100 UAH Deadline: 10 days
Ready to cooperate. Experience in design 11 years. If necessary, the entire office can be operated by 20 people.
- Projects -
- Rating -
- Rating 103
Budget: 300 UAH Deadline: 1 day
Hello, I work in SolidWorks, Compass, Autocad.
Ready to get to work.
Budget: 100 UAH Deadline: 1 day
Good day . Ready to cooperate on a permanent basis.
Experience in SolidWorks 2 years, AutoCAD - 5 years.
by [email protected]
Budget: 200 UAH Deadline: 1 day
Ready for cooperation.
Sections KJ, KM and calculations.
[email protected]
Budget: 400 UAH Deadline: 10 days
At the exhibition in the canyon park there are round canyons, this is my job as a freelancer. Ask the problem, and I will give you a solution. Payment is partly, according to the amount of drafts of the project.
Budget: 100 UAH Deadline: 1 day
Hello, my name is Jaroslav Simakov. I am a specialist in construction and engineering have profile education and work experience in this field for 25 years. I write to you for possible work in your organization on positions related to development, construction, design and more
Your company impressed me, I already had experience working with international companies.
I can be helpful with my skills and professionalism.
Therefore, please consider my summary and if you are interested in the appointment of a personal interview. Priority contact: [email protected]
With respect, Jaroslav.
Budget: 200 UAH Deadline: 2 days
The price and deadline are indicated “conditionally”.
I have already signed off to you.
Budget: 300 UAH Deadline: 1 day
Experience in AutoCAD - more than 10 years.
The price depends on the task and the amount of work.
Budget: 200 UAH Deadline: 1 day
Ready to cooperate.
Budget: 222 UAH Deadline: 1 day
I am working hard, but I am not in Kiev. Call to.
Budget: 300 UAH Deadline: 1 day
Hello to Darina.
Ready to offer their services.
I work at SolidWorks and Compas.
The price and timetable of the work will be indicated after meeting the task.
- Projects -
- Rating -
- Rating 203
Budget: 100000 UAH Deadline: 1 day
I work in solid and autocad. 15 years of experience ready to help
Budget: 600 RUB Deadline: 1 day
Hello to Darina. I offer my candidacy for examination, although I am not living in Kiev. Look at my profile. The price and deadlines are discussed individually.
Budget: 200 UAH Deadline: 4 days
I offer my services. I work in Solida.
Examples by link www.design-engineer.jimdo.com
With respect Frederick Viktor Andriyevich
With respect Frederick Viktor Andreevich
The body. +38(096)-201-04-55, +38(050)-04-22-504.
[email protected]
www.design-engineer.jimdo.com
Budget: 200 UAH Deadline: 5 days
I am working on AutoCAD ProE/Creo Compass.
The time and price after getting to know what to do.
There is experience in the design of a child's room wall for children, work in the profile.
Proposals concealed
Proposals are currently absent
Proposals concealed
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Anatolii Koshevetskyi 4 November 2016Дорый день.
Если выбрали исполнителя - делайте следующее действие - сообщите на сайте!
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Anatolii Koshevetskyi 23 November 2016Добрый день.
Чертеж - инструкция это весь комплект документов, которые Вы собираетесь передать в производство?
Не хватает очень многих размеров и другой важной информации:
Например:
- не указаны материал и толщины стенок труб;
- по какому ГОСТ выбраны трубы?
- Не образмерены:
-Турник с подкосами; Кронштейн для отжимания; Г-образные элементы; баскетбольное кольцо; не указан материал баскетбольного щита.
- нигде не указаны радиусы гибов;
-нет никаких размеров на сидение качели, не указан тип цепи и её размеры
-нет размеров элементов лестницы "гусиный шаг"...
и.т.п....
Не знаю, кто возьмется за изготовление конструкции по этим т.н."чертежам".
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Pavlo Martinyuk 23 November 2016Кто возьмется делать - тот еще денег за проект деталировочный возьмет денег.
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Yura Slabko 23 November 2016Соглашусь с предыдущими двумя комментариями. и поинтересуюсь что Вы небось заплатили еще за этот проект N-ную сумму а теперь еще и ошибки искать.. кстати поиск ошибок тоже трата времени а оно оплачивается так что Анатолий Вы уже свою денежку можно сказать начали зарабатывать...платить на исправление и поиск ошибок или снова платить за деталировку... это получается 2ды или 3ды платить за проект...
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Ruslan Morozov 23 November 2016Я не понял, к кому вопрос о заинтересованности в проекте? То, что в приложениях - не проект, а картинка к детскому конструктору от 3 до 5 лет. Проще заново сделать, чем перечислить все недочеты, замечания и ошибки..
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Yury Gavrilenko 28 December 2016Добрый день. Перед оценкой стоимости изготовления производственных чертежей хотелось бы узнать возможности производства, т.к. к примеру может не быть токарного станка или гильйотины и потому конструктив нужно изменить под возможности производства. Также согласен насчет деталировки - она нужна, особенно если изделие не разовое а серийное.
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Nikolay Nikolay 11 January 2017Ищу возможности долгосрочного дистанционного сотрудничества с заказчиком. Инженер-конструктор с опытом работы 16лет.
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Aleksandr Parenyuk 21 February 2017Здравствуйте. Имею опыт работы в программе с обширными возможностями SOLIDWORKS. Проживаю в Киеве. Интересует долгосрочное сотрудничество.
Current freelance projects in the category Engineering
Title: Development of electrical schematics (EasyEDA) for data acquisition modules (STM32, precision ADC, galvanic isolation) Task Description: We are looking for an experienced circuit engineer to develop the schematic diagrams for two boards (PCB design is not required at this stage). What needs to be designed: Master module: power input of 24V and communication with the external world via hardware-isolated RS-485. Analog input module: digitization of two channels of industrial sensors (0-10V / 4-20mA). Based on a precision ADC (type ADS1248). A mandatory condition is the presence of an internal digital isolation barrier after the ADC. The boards communicate with each other via SPI. Key requirements (Strict!): Environment: only EasyEDA (Pro or Std). Components: 100% of parts must have part numbers (C-parts) from the LCSC Electronics catalog, as the boards will go for automated PCBA. Base MCU: STM32F103 (or your suggestions for modern equivalents). A detailed, well-written technical specification with a ready reference architecture from Texas Instruments will be provided to the candidate. Bonus: For the specialist who diligently and competently completes this stage (circuit design), a second paid stage — routing of these printed circuit boards (PCB Design) — will be guaranteed.
TECHNICAL TASK (written by six) Development of a turnkey interactive projection system with software for 6 mm Airsoft shooting (similar to the airsoft digital target system Arcada; https://youtu.be/3HwgDuesDTU?si=vZCKD4pZDXtL3kZl) An engineer or a small team with experience in DSP / DAQ / acoustics / vibration measurements / piezoelectric sensors / impact localization is needed. 1. Overall project goal A prototype of an interactive shooting game system is to be developed for use in entertainment centers. Operating principle: An interactive image or game is projected onto a physical screen by a projector. The user shoots at the screen with standard Airsoft guns using 6 mm BB plastic balls. The system must determine the coordinates of each physical hit on the screen in real-time and transmit the X/Y coordinates to the software. The software matches the physical hit point with the object currently displayed by the projector, after which the game responds accordingly to the shot. The main task of the first stage is to create a reliable technology for determining hit coordinates. 2. Size of the first prototype Working area: 1000 × 1000 mm. After successful testing, the technology should be scalable to larger screens, approximately: 2000 × 1200 mm; 2400 × 1350 mm; or other commercial formats. Therefore, the system architecture must consider further scaling. 3. Type of ammunition Main type: Airsoft BB — plastic balls of 6 mm caliber. The system must operate with standard Airsoft guns within a safe energy range for the entertainment venue. The specific allowable range of speed and energy of the BBs must be determined experimentally during development. 4. System operation principle Basic concept: Shot → BB impact on the screen → impact registration by sensors → signal processing → X/Y coordinate determination → event transmission to the game software. For example: SHOT #00125 X = 643 mm Y = 271 mm Timestamp = ... Confidence = ... The coordinates must be transmitted to the software via API, SDK, TCP/UDP, WebSocket, or another stable interface. 5. Screen design A metal impact surface is considered for the first prototype: an aluminum or polycarbonate panel approximately 1000 × 1000 × 1 mm. Thickness, alloy, and mounting design are NOT final. The engineer must experimentally determine the optimal: material; thickness; tension/fixing method; damping; frame design; sensor placement. It is important to ensure: stable propagation of mechanical/acoustic waves; sufficient durability under repeated impacts; the possibility of quick replacement of the impact panel; minimal impact of the mounting on the accuracy of coordinate determination. 6. Sensor system Approximately 4–8 or more sensors are planned for use. Possible technologies: IEPE/ICP piezoelectric accelerometers; contact acoustic sensors; piezoelectric sensors; ultrasonic methods; other technologies proposed by the engineer. The number and type of sensors should be determined not formally, but based on the best accuracy, speed, reliability, and cost of the serial system. Preference is given to ready-made professional components from existing manufacturers. There are no plans to develop proprietary electronic boards if the task can be reliably solved with ready-made serial equipment. 7. Coordinate determination An algorithm for determining the coordinates of physical hits must be developed. Possible methods: Time Difference of Arrival (TDOA); wave arrival time analysis; amplitude analysis; signal shape analysis; frequency analysis; correlation methods; calibration surface map; machine learning; combination of several methods. The engineer may propose another technology if it provides better results. 8. Accuracy The desired final accuracy of coordinate determination: approximately ±5–10 mm across the entire working surface. For the first prototype, an acceptable intermediate result may be: up to ±20 mm, if there is a clear technical path to further improve accuracy. It is necessary to measure: average error; maximum error; error near the edges; repeatability of results. 9. Speed of operation Hit determination must occur almost instantaneously. Desired latency: less than 10–20 ms from physical impact to coordinate transmission to the game, if technically possible. The system must recognize a series of rapid consecutive shots. In the future, support for multiple players and high shooting intensity is required. 10. Simultaneous and close hits The possibility of correctly processing must be investigated: rapid consecutive shots; two hits with a small time interval; potentially simultaneous shooting by two players. The algorithm must not mistakenly combine two different shots into one hit. 11. Calibration The system must have a procedure for automatic or semi-automatic calibration. For example: a grid of control coordinates is set on the screen. A series of test shots is performed at known points. The system records signals from all sensors and creates an individual calibration model for the specific screen. Calibration must compensate for: differences between panels; mounting features; wave reflections from edges; differences between sensors; temperature and mechanical changes, if they significantly affect accuracy. 12. Self-diagnosis It is desirable to provide for automatic checks of: the operability of each sensor; signal level; absence of cable break; the need for recalibration. In case of malfunction, the system should report which specific component needs checking. 13. Projector At the next stage, a projector will be connected to the system. The projector will display: moving targets; arcade games; training scenarios; scoring system; multiplayer scenarios. Hits must accurately correspond to the projection coordinates. Software calibration must be provided: physical screen coordinates ↔ projector image coordinates. 14. Game software At the first stage, it is not necessary to develop full-fledged games. A test program is needed that shows after a shot: hit point; X/Y coordinates; shot number; time; error relative to the control point; service information about sensor signals. In the future, the system should have the capability to integrate with a game engine, such as Unity or Unreal Engine. 15. Equipment Priority: use of ready-made professional serial components. It is necessary to avoid developing proprietary complex electronics if reliable ready-made solutions exist. Components from manufacturers of the level are considered: professional data acquisition systems DAQ; IEPE/ICP and other industrial sensors; ready USB/Ethernet interfaces; serial cables and connectors. No specific manufacturer is fixed. The engineer may propose optimal components. 16. Prototype budget The estimated budget for the sensor system and main equipment of the first prototype: up to 5,000 USD. PC and professional projector may be considered separately. It is important to find a balance between: accuracy + speed + reliability + possibility of serial production. 17. Commercial operation The final system is intended not for a laboratory but for daily commercial operation in an entertainment center. Therefore, the equipment must: operate many hours daily; withstand a large number of shots We can provide premises for the development and release of this project in the city of Lviv with the prospect of continuing activities as a partner
Develop a motor control system based on aCAN bus network, including: Selecting and specifying commercially available PLC hardware and related components. Developing the control software for operating the system from aPC and atablet (or adapting existing software to meet the system requirements). Preparing complete engineering and manufacturing documentation required for the production of the control system. A key requirement is that the maximum communication distance between the controller and the PC or tablet must beup to 100 meters. The main motor parameters, as well as the preferred/recommended hardware components, will be discussed and agreed upon during the project.
It is necessary to develop the design of an ergonomic chair/suspension for a worker who works standing for long periods during the repair of wooden pallets. The chair must be attached to the carriage of the ceiling rail system and move with the worker within the working area. The main goal is to partially relieve the load on the legs and back, while the worker's legs predominantly remain on the floor. Key requirements: designed for a user weighing approximately up to 100 kg with the necessary safety margin; adjustability of height and body support level; comfortable transition between standing, semi-sitting, and sitting positions; quick and safe release of the worker from the chair; ability to rotate around a vertical axis; the chair should not restrict the movement of arms and legs; the design should not interfere with a separate carriage with a winch for lifting pallets; provide an independent safety element or another solution against falling; parts must be available for manufacturing from steel, straps, and standard components. Expected results: Several options for the chair concept. Selection and refinement of the optimal option. 3D model of the design. Drawings of parts and assemblies with dimensions. Mounting scheme to the suspension system carriage. List of materials and ready-made components. Strength calculation of the main loaded elements. Files in STEP and PDF formats for further prototype manufacturing. I am looking for a specialist with experience in mechanical engineering, industrial design, ergonomics, or the development of suspension equipment. Preference will be given to a contractor who can not only create a visualization but also prepare a technically sound design for manufacturing and testing. Detailed dimensions of the rail system, photographs, and my developments will be provided to the selected contractor. The project is related to human safety, so the final design must undergo verification by an engineer and testing before use. Important condition regarding patents: There is a similar suspension system from the company Standing Ovation. Its product can only be used as an example of an already known solution, but its design, layout, and operating principle must not be copied. It is necessary to develop an independent technical solution that will have significant structural differences and will not replicate features protected by existing patents of Standing Ovation. I will provide the contractor with the found patent documents for review. During the development, it is necessary to: analyze the known product and propose another way to support the body; not copy the shape of the chair, frame, suspension, adjustment mechanism, and mounting scheme; prepare a brief description of the main technical differences; create a comparison table of the new solution with the Standing Ovation design; provide for the possibility of further patent verification and patenting of the own design. The contractor is expected to deliver a technically independent design; however, the final legal check for patent purity will be conducted by a separate patent specialist.
Need experience with SolidWorks metal doors We will discuss the terms of reference in private ................................................................